Computational tools of system identification and prediction of time series allows for the conception of mathematical models based on numerical data. The key problem in these cases is to find a suitable mathematical model. This paper presents a radial basis function neural network (RBF-NN) design for forecasting time series. Using the RBF-NN for nonlinear system forecasting is quite difficult as one has to choose an appropriate set of centers and spreads for the Gaussian activation functions to achieve a good network structure. In this work, the setup of RBF-NN is based on a hybrid method based on the Gustafson-Kessel clustering method and optimization procedure by differential evolution. The RBF-NN design is validated for the one-step ahead forecasting of eucalyptus wood prices for cellulose and sawmill to illustrate the effectiveness of this hybrid approach. The performance of the RBF-NN design based on forecasting results is presented and discussed in details.
Time series; Forecasting; Neural network; Radial basis function; Differential evolution